Developing technology can facilitate work activities, one of which is technology in the field of robotics. One of the purposes of creating the robot was to assist in investigating suspected targets. The target can be a gas source leak object. On the other hand, gas leaks in industrial estates have a large impact on the environment. Robots are needed to facilitate the inspection process of targets suspected of gas leakage. Robots generally have systems that are integrated with sensors as interfaces and intelligent computing. In this study mobile robots and manipulators have been designed and have the purpose of inspecting objects suspected of being gas leaks. This robot system is called a mobile robot manipulator equipped with a wireless camera for object detection, two gas sensors for aroma detection, each sensor is mounted on the end-effector manipulator and next to the camera. The methods used in robots are fuzzy logic and cubic trajectory. Fuzzy logic is used to navigate robots to objects, and cubic trajectory for navigating manipulators based on the specified route. In the experiments that have been done, the mobile robot can navigate to the target until it stops at a distance of 20cm, and the manipulator is also successful in navigating. In the testing instrument, two leaking points have been determined. Each point is tested six times. The robot succeeded in detecting gas leaks with a success rate of 91.67%, and the position of coordinates read by the manipulator can be observed through the monitor.

Fuzzy logic; Manipulator mobile robot; Trajectory

E. S. Redden, R. A. Pettit, C. B. Carstens, dan L. R. Elliott, “Scalability of Robotic Displays: Display Size Investigation”, Human Research and Engineering Directorate. 2008.

A. D. C. Albornoz, A. B. Rodriguez, A. L. Lopez, dan A. R. G. Ramirez, “A Microcontroller-Based Mobile Robotic Platform for Odor Detection”, Biosignals and Biorobotics Conference, 2012.

D. Herjuno, M. Rivai, dan T. A. Sardjono, “Teledeteksi Gas pada Mobile Robot yang Dikendalikan Gelombang Radio”, Jurnal Teknik ITS, Vol. 1, September 2012.

S. Nurmaini, B. Tutuko, dan A. Rahman, “A New Navigation of Behavior-Based Olfactory Mobile Robot”, Applied Mechanics and Materials, Vol. 446-447, hal. 1255-1260, 2014.

N. L. Husni, A. S. Handayani, S. Nurmaini, dan I. Yani, “Odor Localization using Gas Sensor for Mobile Robot”, Proc. EECSI, September 2017.

A. B. Gustica, M. Rivai, dan Tasripan, “Implementasi Sensor Gas pad Kontrol Lengan Robot untuk Mencari Sumber gas”, Jurnal Teknik ITS, Vol. 3, No. 1, 2014.

Firmansyah, Y. Away, R. Munadi, M. Ikhsan, dan I. Muddin, “Perancangan Lengan Robot 5 Derajat Kebebasan dengan Pendekatan Kinematika”, Jurnal Rekayasa Elektrika, Vol. 11, No. 2, hal. 69-72, Oktober 2014.

M. F. Faris, A. Triwiyatno, dan I, Setiawan, “Perancangan Arm Manipulator 4 DOF Dengan Menggunakan Pengendalian Cartesian Space-Trajectory Planning”, Transient, Vo. 1, No. 4, Desember 2012.

M. H. Barri, A. Ryandika, A. Cesario, dan A. Widyotriatmo, “Desain dan Kontrol Posisi dari Arm Manipulator Robot Sebagai Alat Rehabilitasi Pasien Pasca Stroke”, Jurnal Otomasi Kontrol dan Instrumentasi, Vol. 9, No. 2, 2017.

Rendyansyah dan A. P. P. Prasetyo, “Simulasi Robot Manipulator 4 DOF Sebagai Media Pembelajaran Dalam Kasus Robot Menulis Huruf”, Jurnal Nasional Teknik Elektro, Vol. 5, No. 3, November 2016.

Fahmizal dan C. H. Kuo, “Development of a Fuzzy Logic Wall Following Controller for Steering Mobile Robots”, International Conference on Fuzzy Theory and Its Application, December 2013.

R. D. Kusumanto dan A. N. Tompunu, “Pengolahan Citra Digital Untuk Deteksi Obyek Menggunakan Pengolahan Warna Model Normalisasi RGB”, Seminar Nasional Teknologi Informasi dan Komunikasi Terapan, 2011.